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CHEM 106 Chemical Reactions & Stoichiometry Dr. Ron Rusay.

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1 CHEM 106 Chemical Reactions & Stoichiometry Dr. Ron Rusay

2 Chemical Reactions Atoms, Moles, Mass, & Balance: eg. Zn(s) + S(s)
Stoichiometry connects atoms/molecules, moles and mass in chemical reactions. It interrelates both reactants and products, which are conserved.

3 Chemical Equation _ C2H5OH + _ O2  _ CO2 + _ H2O Reactants Products
Representation of a chemical reaction: _ C2H5OH + _ O2  _ CO2 + _ H2O Reactants Products C=2; H =5+1=6; O=2+1 C=1; H=2; O=2+1 1 C2H5OH O2  2 CO H2O + energy

4 Chemical Equation C2H5OH + 3 O2  2 CO2 + 3 H2O
+energy The balanced equation can be completely stated as: 1 mole of ethanol reacts with 3 moles of oxygen to produce 2 moles of carbon dioxide and 3 moles of water.

5 The Chemical Equation: Mole & Masses
C2H5OH O2  2 CO H2O +energy 46g (1 mole) of ethanol reacts with 3 moles of oxygen (96g) to produce 2 moles of carbon dioxide and 3 moles of water. How many grams of carbon dioxide and water are respectively produced from 46g (1 mole) of ethanol ? 2 mol x 44 g/mol = 88g 3 mol x 18 g/mol = 54 g

6 The Chemical Equation: Moles & Masses
C2H5OH O2  2 CO H2O How many grams of oxygen are needed to react with 15.3g of ethanol in a 12oz. beer ? +energy 15.3gethanol x molethanol /46.0gethanol = 0.333molethanol 0.333molethanol x 3moloxygen / 1molethanol = 0.999moloxygen 32.0goxygen /moloxygen x 0.999moloxygen = 32.0goxygen NOTE: It takes approximately 1 hour for the biologically equivalent amount of oxygen available from cytochrome p450 to consume the alcohol in a human in 1 beer to a level below the legal limit of 0.08%.

7 Chemical Equation 2 C8H18(l)+ 25 O2(g) 16 CO2(g) +18 H2O(l)
All Balanced Equations relate on a mole basis. For example the combustion of octane: 2 C8H18(l)+ 25 O2(g) CO2(g) +18 H2O(l) moles of octane react with 25 moles of oxygen to produce 16 moles of carbon dioxide and 18 moles of water. +energy

8 Mass Calculations 2 C8H18(l)+ 25 O2(g) 16 CO2(g) +18 H2O(l)
All Balanced Equations relate on a mole and also a mass basis through Molar Mass. For example the combustion of octane: 2 C8H18(l)+ 25 O2(g) CO2(g) +18 H2O(l) 228 g of octane (2 moles)* will react with 800 g of oxygen (25 moles) to produce (16 moles) 704 g of carbon dioxide and (18 moles) 324 g of water. *(2 moles octane x 114 g/mol = 228 g ) +energy

9 Mass Calculations: Reactants Products

10 Mass Calculations: Reactants Products
1. Balance the chemical equation. 2. Convert mass of reactant or product to moles. 3. Identify mole ratios in balanced equation: They serve as the “Gatekeeper”. 4. Calculate moles of desired product or reactant. 5. Convert moles to grams.

11 Mass Calculations: Reactants Products

12 QUESTION The fuel in small portable lighters is butane (C4H10). After holding a lighter in the air for a few minutes at the end of a rock concert, 1.0 gram (0.017 moles) of fuel was used. How many grams of carbon dioxide did it produce? + energy A.) 750 mg B.) 6.0 g C) 1.5 g D.) 3.0 g

13 ANSWER D.) 3.0 g 1.0 g C4H10 ?g CO2 mol C4H10 44 g CO2 8 mol CO2 C4H10

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